An innovative new Borger pump at Cliff Quay Wastewater Treatment Works is significantly improving the blend of liquified sludge and cake for Anglian Water’s anaerobic digestion (AD/biogas) process.
Working closely alongside Anglian Water and long-stablished engineers, Panks, Borger have also helped meet the challenge of mixing a rectangular tank that was proving far too difficult for existing equipment.
Jon Hooper, Cliff Quay Treatment Manager for Anglian Water, said: “As well as bringing about a better, more consistent product to feed the AD process, Borger and Panks have effectively helped us solve a problem without needing to install a new tank”.
He added: “Mixing sludge in a rectangular tank is always a difficult task, but a paddle mixer at the deep end had difficulty coping with the solids, while the vortex pump at the shallow end of the tank (20m by 10m, 550m3) kept air-locking”.
To put the Borger EL rotary lobe pump to the test – and ensure that a new set-up would work for Anglian Water - Panks first tried pumping through the existing pipework, but there was too much pressure at the jet end”.
Chris Bone, Contracts Manager at Panks, explained: “We then tried with some temporary pipework in a different configuration and this mixed the tank much, much better.
“Despite the considerable limitations of a rectangular tank, there was no doubting the capability of the Borger pump, so together with Anglian Water, we agreed to install additional stainless-steel pipework with three injection points at strategic locations”.
Now, with cake that comes in at 17% solids, with the surplus activated sludge (SAS) at approximately 3% to 4%, Anglian Water are able to achieve the optimum level of 8% solids – without the previous air-locking and burn-out issues.
Anglian Water’s Jon Hooper added: “The mix of cake and liquified sludge is quite gritty, but since the installation by Panks of the new Borger pump, we’ve successfully improved the blend – which is quite an achievement with it running 24/7 and dealing with such high volumes – around 35 tonnes per day”.
SOURCE: Anglian Water